Mr. Mehedi Hasan Joni | Electrochemistry | Best Researcher Award
Mr. Mehedi Hasan Joni | Kwangwoon University | South Korea
Mr. Mehedi Hasan Joni is an emerging researcher in the field of Electronic Engineering with a strong academic and research background in Nanomaterials Science, Electrocatalysis, and Green Hydrogen Technology. He is currently pursuing his Ph.D. at KwangWoon University, South Korea, where he serves as a Graduate Research Assistant in the Advanced Quantum-Nano Materials and Optoelectronics Laboratory (AQNMOL). His research primarily focuses on developing transition metal-based highly efficient and cost-effective electrocatalysts for water splitting and sustainable hydrogen production. Mr. Joni has co-authored several high-impact research articles in internationally reputed journals such as Chemical Engineering Journal, Small, Journal of Energy Chemistry, and Journal of Colloid and Interface Science, contributing to advancements in catalytic materials and green energy applications. His technical expertise includes electrochemical characterization, materials fabrication, reaction kinetics, and nanodevice applications, complemented by hands-on experience with advanced characterization tools such as SEM, XRD, XPS, Raman, and TEM. Alongside his research, he has served as a Graduate Teaching Assistant, demonstrating strong academic leadership and mentoring capabilities. His academic journey began with a Bachelor of Science in Chemistry from the University of Dhaka, Bangladesh, and he has been recognized with a fully funded scholarship from the National Research Foundation of Korea (NRF) and Brain Korea 21 Plus (BK21+) program. With a deep commitment to sustainable energy innovation and scientific excellence, Mr. Mehedi Hasan Joni continues to contribute significantly to the field of nanomaterials and electrochemical energy research.
Featured Publications
Habib, M. A., Mandavkar, R., Lin, S., Burse, S., Khalid, T., Joni, M. H., Jeong, J. H., & Lee, J. (2023). Ni-BP microspheres for superior water-splitting OER electrocatalyst satisfying industrial operational requirement. Chemical Engineering Journal, 462, 142177.
Habib, M. A., Burse, S., Lin, S., Mandavkar, R., Joni, M. H., Jeong, J. H., Lee, S. S., & Lee, J. (2024). Dual-functional Ru/Ni-B-P electrocatalyst toward accelerated water electrolysis and high stability. Small, 20(12), 2307533.
Habib, M. A., Lin, S., Joni, M. H., Dristy, S. A., Mandavkar, R., Jeong, J. H., & Lee, J. (2025). Ru/NiMnB spherical cluster pillar for highly proficient green hydrogen electrocatalyst at high current density. Journal of Energy Chemistry, 100, 397–408.
Lin, S., Mandavkar, R., Habib, M. A., Dristy, S. A., Joni, M. H., Jeong, J. H., & Lee, J. (2025). Fabrication of Ru-doped CuMnBP micro-cluster electrocatalyst with high efficiency and stability for electrochemical water-splitting application at the industrial-level current density. Journal of Colloid and Interface Science, 677, 587–598.
Lin, S., Habib, M. A., Burse, S., Mandavkar, R., Khalid, T., Joni, M. H., Li, M. Y., & Lee, J. (2022). Hybrid UV photodetector design incorporating AuPt alloy hybrid nanoparticles, ZnO quantum dots, and graphene quantum dots. ACS Applied Materials & Interfaces, 15(1), 2204–2215.